US20210256645A1 - Methods of verifying the onboard presence of a passenger, and related wireless electronic devices - Google Patents
Methods of verifying the onboard presence of a passenger, and related wireless electronic devices Download PDFInfo
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- US20210256645A1 US20210256645A1 US17/307,774 US202117307774A US2021256645A1 US 20210256645 A1 US20210256645 A1 US 20210256645A1 US 202117307774 A US202117307774 A US 202117307774A US 2021256645 A1 US2021256645 A1 US 2021256645A1
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- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/30—Payment architectures, schemes or protocols characterised by the use of specific devices or networks
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- G06Q20/38—Payment protocols; Details thereof
- G06Q20/40—Authorisation, e.g. identification of payer or payee, verification of customer or shop credentials; Review and approval of payers, e.g. check credit lines or negative lists
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- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
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Definitions
- the present inventive concepts relate to communications systems, methods, and devices and, more particularly, to systems, methods, and devices that use communications to verify the physical presence of a person.
- an airplane passenger may be required to verify that the passenger was on board a particular flight from one jurisdiction to another jurisdiction, such as from one country to another country. For example, to qualify for duty-free shopping, a passenger may be required to present a boarding pass. Similarly, when flying from one country to another, a passenger may need to file, at an airport, a form to obtain a refund for the passenger's payment of a value-added tax.
- methods of verifying an onboard presence of a passenger of a transportation vehicle may include generating, via a wireless electronic device of the passenger while on board the transportation vehicle, different first and second data indicating the onboard presence of the passenger. Moreover, the methods may include transmitting the different first and second data indicating the onboard presence of the passenger from the wireless electronic device to a server.
- the transportation vehicle may be an aircraft, and the transmitting may be performed by the wireless electronic device while on board the aircraft.
- the first data indicating the onboard presence of the passenger may be boarding pass data
- the generating may include generating the boarding pass data by using a camera of the wireless electronic device.
- the generating the boarding pass data may include scanning, via the camera of the wireless electronic device, a bar code or QR code of a physical boarding pass of the passenger.
- the generating the boarding pass data may include taking a photograph, via the camera of the wireless electronic device, of a physical boarding pass of the passenger.
- the transmitting may include transmitting the photograph of the physical boarding pass of the passenger from the wireless electronic device to the server.
- the second data indicating the onboard presence of the passenger may include an identification of a local-area-network access point that is on board the transportation vehicle, and the generating may include generating the identification of the local-area-network access point by using the wireless electronic device to access the local-area-network access point.
- the local-area-network access point may include a Wi-Fi access point that is on board the transportation vehicle, and the generating may include generating an identification of the Wi-Fi access point by using the wireless electronic device to access a service provided via the Wi-Fi access point.
- the first data indicating the onboard presence of the passenger may include biometric data of the passenger, and the generating may include generating the biometric data by using a camera or other sensor of the wireless electronic device.
- the second data indicating the onboard presence of the passenger may include location data of the transportation vehicle, and the generating may include generating the location data of the transportation vehicle by using a Global Positioning System (GPS) receiver of the wireless electronic device.
- GPS Global Positioning System
- the transportation vehicle may include an aircraft, and the location data may include altitude data of the aircraft.
- the transmitting may be performed by the wireless electronic device while bypassing any local area network of the aircraft, after the passenger disembarks from a flight of the aircraft.
- the transportation vehicle may be an aircraft
- the second data indicating the onboard presence of the passenger may include altitude data of the aircraft
- the generating may include generating the altitude data of the transportation vehicle by using a barometer of the wireless electronic device.
- the first data indicating the onboard presence of the passenger may include boarding pass data
- the second data indicating the onboard presence of the passenger may include an identification of a local-area-network access point that is on board the transportation vehicle.
- the transmitting may include transmitting first and second time stamps indicating when the boarding pass data and the identification of the local-area-network access point, respectively, were generated by the wireless electronic device.
- the first data indicating the onboard presence of the passenger may include boarding pass data
- the second data indicating the onboard presence of the passenger may include location data of the transportation vehicle.
- the transmitting may include transmitting first and second time stamps indicating when the boarding pass data and the location data, respectively, were generated by the wireless electronic device.
- the methods may include initiating, via the wireless electronic device while at a first physical location including a store, a transaction to purchase one or more items from the store. Moreover, the methods may include completing, via the wireless electronic device while at a second physical location outside of the store, the transaction in response to verifying an identity and/or location of the passenger.
- the second physical location may include a location on board the transportation vehicle, and the verifying may include performing the generating and the transmitting.
- the methods may include accessing, via a web page or an application that is resident on the wireless electronic device, a database to verify whether the passenger has purchased a maximum amount of duty-free purchases for a particular jurisdiction. Additionally or alternatively, the methods may include transmitting third data indicating that the passenger has arrived at a destination.
- a wireless electronic device may be configured to perform any combination or subcombination of the methods described herein.
- a computer program product may be provided that includes a non-transitory computer readable storage medium including computer readable program code therein that when executed by a processor causes the processor to perform any combination or subcombination of the methods described herein.
- Wireless electronic devices may include a processor configured to generate different first and second data indicating a presence of a passenger on board a transportation vehicle.
- the wireless electronic devices may also include a transceiver configured to transmit the different first and second data indicating the presence of the passenger from the wireless electronic device to a server.
- the wireless electronic devices may include a camera, and the processor may be further configured to generate the first data by using the camera to capture an image of a boarding pass of the passenger. Analogous methods and/or computer program products also may be provided.
- Methods of verifying, via a server, according to some embodiments of the present inventive concepts, an onboard presence of a passenger of a transportation vehicle may be provided.
- the methods may include receiving at the server, from a wireless electronic device of the passenger, different first and second data indicating the onboard presence of the passenger.
- the methods may include processing the different first and second data at the server.
- the methods may include transmitting a result of the processing from the server to a third party.
- Analogous servers, wireless electronic devices, and/or computer program products also may be provided.
- the processing may include comparing the different first and second data with predetermined values corresponding to the transportation vehicle. Additionally or alternatively, the transmitting may include transmitting an authorization to complete a transaction to purchase one or more items initiated via the wireless electronic device at a physical store. Moreover, the methods may include receiving at the server, from the wireless electronic device of the passenger, third data indicating that the passenger has arrived at a destination. Analogous servers, wireless electronic devices, and/or computer program products also may be provided.
- a server may configured to perform any combination or subcombination of the methods of verifying, via a server, the onboard presence of the passenger of the transportation vehicle described herein.
- a computer program product may be provided that includes a non-transitory computer readable storage medium including computer readable program code therein that when executed by a processor causes the processor to perform any combination or subcombination of the methods described herein.
- Analogous wireless electronic devices and/or methods also may be provided.
- FIG. 1 is a schematic diagram illustrating a geographical area that includes a wireless electronic device, according to some embodiments of the present inventive concepts.
- FIGS. 2A, 2B, and 2C are flowcharts illustrating operations of verifying the identity and/or location of a passenger of a transportation vehicle, according to some embodiments of the present inventive concepts.
- FIG. 3 is a block diagram of a wireless electronic device, according to some embodiments of the present inventive concepts.
- FIG. 4 is a diagram of a graphical user interface of a wireless electronic device, according to some embodiments of the present inventive concepts.
- FIG. 5 is a block diagram of an example processor and memory that may be used in accordance with embodiments of the present inventive concepts.
- Some embodiments of the present inventive concepts provide for verification that a person was on board a flight, without requiring a check at an airport gate or checking/accessing (e.g., consulting/inquiring) any passenger log data.
- a wireless electronic device 101 is illustrated in a geographical area 102 .
- the wireless electronic device 101 may be (or may be a part of) one of various types of wireless electronic user devices, including mobile/cell phones, as well as wireless user devices without phone capabilities.
- the wireless electronic device 101 may be a smartphone 101 S, a laptop computer, a tablet computer, or any other portable, wireless electronic device with communications capability.
- the wireless electronic device 101 can be located anywhere inside the geographical area 102 .
- the wireless electronic device 101 can, in some embodiments, be located inside an aircraft 120 A (or other transportation vehicle 120 ).
- FIG. 1 illustrates a single wireless electronic device 101 , a plurality of wireless electronic devices 101 may be located inside the geographical area 102 or inside the aircraft 120 A. As an example, in some embodiments, hundreds, thousands, or more wireless electronic devices 101 may be located inside the geographical area 102 .
- the wireless electronic device 101 may wirelessly receive signals from transmitters such as a Base Station (BS)(e.g., a cellular BS), a satellite, and/or a Positioning Beacon (PB) of a Terrestrial Beacon Network (TBN).
- BS Base Station
- PB Positioning Beacon
- TBN Terrestrial Beacon Network
- the geographical area 102 may include any number of (e.g., three, four, dozens, or more) BSs and/or PBs.
- the wireless electronic device 101 may receive signals from a Wi-Fi hot spot 121 W (or other local-area-network access point 121 ) in the geographical area 102 (or in the aircraft 120 A) and/or a GPS network 174 .
- the physical presence (e.g., location/position) of the wireless electronic device 101 may be determined using signals to/from the BSs, PBs, the Wi-Fi hot spot 121 W, and/or the GPS network 174 .
- a server 135 (or other remote computer/processor) that is communicatively connected to a BS and/or Wi-Fi hot spot 121 W may process data regarding the physical presence of the wireless electronic device 101 .
- a resident (and/or a remote, cloud-based) application used by a smartphone 101 S may scan, or take a photo of, a passenger's boarding pass for a flight.
- the scan or photo may be initiated by the passenger or can be automatic (e.g., can be initiated by the application resident on the smartphone 101 S).
- an image of the boarding pass may be captured while the passenger is on board the flight for which the boarding pass is required.
- the application resident on the smartphone 101 S may transmit information generated by scanning or photographing a physical (e.g., paper) boarding pass. For example, if the scan is a barcode scan or QR code scan, then data generated by the scan may be transmitted. If, on the other hand, a photo of the boarding pass is taken, then the photo may be transmitted.
- a physical (e.g., paper) boarding pass For example, if the scan is a barcode scan or QR code scan, then data generated by the scan may be transmitted. If, on the other hand, a photo of the boarding pass is taken, then the photo may be transmitted.
- the application may also transmit an identification of an access point 121 , such as a Wi-Fi access point 121 W or other local-area-communication access point that is used by the smartphone 101 S while on board the flight.
- the identification may include, for example, a Media Access Control address (MAC address) of the access point 121 and/or a Service Set Identifier (SSID) of the access point 121 .
- MAC address Media Access Control address
- SSID Service Set Identifier
- the smartphone/device application may determine its location/altitude using Global Positioning System (GPS) capability (e.g., GPS hardware and/or software) of the smartphone 101 S.
- GPS Global Positioning System
- the smartphone 101 S may include a GPS receiver that is configured to determine the location/altitude while the passenger is onboard the aircraft 120 A.
- the boarding pass data and access point identification may be transmitted by the smartphone/device application to a server 135 (e.g., at a data center) to provide verification of the passenger's presence on board the flight.
- the transmission to the server 135 may be completed while the passenger is on board the flight or, if communications are not available on the flight, after the flight (e.g., after disembarkation of the flight).
- Some local-area-networks, such as Wi-Fi may not allow the application to transmit data.
- the server 135 processes/performs the verification, it may transmit the result to a third-party, such as an airline, a duty-free shopping merchant, or an organization that provides value-added tax refunds.
- FIG. 2A a flowchart is provided illustrating operations of verifying an onboard presence of a passenger of a transportation vehicle 120 , such as the aircraft 120 A, according to the present inventive concepts.
- the passenger is the user/owner of the wireless electronic device 101 (e.g., a smartphone 101 S)
- verifying the onboard presence of the wireless electronic device 101 may provide a verification of the onboard presence of the passenger.
- the wireless electronic device 101 may scan or photograph (Block 210 ) a boarding pass of the passenger while onboard the transportation vehicle 120 . As a result, the wireless electronic device 101 may generate data indicating the onboard presence of the passenger. The wireless electronic device 101 may generate additional, different data indicating the onboard presence of the passenger by connecting to a local-area-network access point 121 , such as a Wi-Fi hot spot 121 W that is on board the transportation vehicle 120 . The additional, different data may be an identification/identifier (ID) of the access point 121 .
- ID identification/identifier
- the ID of the access point 121 may be a predetermined ID, such as a MAC address and/or an SSID, that is known/stored by a server 135 . Accordingly, operations described herein of “generating” an ID may refer to copying/storing a predetermined ID at the wireless electronic device 101 before transmitting the ID.
- the access point ID transmitted by the wireless electronic device 101 can then be compared (e.g., by a server 135 ) with a known/stored access point ID to verify the presence of the wireless electronic device 101 on board the transportation vehicle 120 having the access point 121 .
- the access point 121 When the access point 121 is inside an aircraft 120 A, a person outside of the aircraft 120 A may not be able to connect to the access point 121 , as a network/service provided via the access point 121 may not become enabled/accessible until wireless electronic devices 101 are approved for use after take-off (and/or after reaching a threshold altitude, such as 10,000 feet or higher) of the aircraft 120 A. This may ensure that a passenger using the wireless electronic device 101 to connect to the access point 121 is on board (and not merely nearby) the aircraft 120 A.
- a provider of a Wi-Fi service that is accessible via a Wi-Fi access point 121 W on an aircraft 120 A may have an agreement/contract with an airline to allow passengers to connect with, and transmit data indicating the passengers' onboard presence through, the Wi-Fi access point 121 W, at no additional charge to the passengers.
- a passenger's onboard presence can be verified by providing (i) GPS/altitude data, (ii) data indicating that the aircraft 120 A is in/above a jurisdiction different from that of the take-off location, and/or (iii) a time stamp indicating when the wireless electronic device 101 accessed the access point 121 , in addition to (or as an alternative to) providing an ID of the access point 121 .
- the multi-factor authentication may use at least three factors.
- the generation of data can be prompted by an application resident on the wireless electronic device 101 .
- the application may automatically initiate camera functionality of the wireless electronic device 101 and/or may prompt the passenger to scan/photograph the boarding pass via the wireless electronic device 101 .
- the application may prompt the passenger to provide one or more other identifying data via user input(s).
- the application may prompt the passenger to provide a face scan or a fingerprint scan.
- the wireless electronic device 101 may then transmit (Block 220 ) the boarding pass data and the access point ID to a server 135 (e.g., at a data center), if the access point 121 is available on board the transportation vehicle 120 (Block 215 ).
- the wireless electronic device 101 may generate/store the access point ID in response to using the wireless electronic device 101 to access a service (e.g., an in-flight entertainment and/or shopping service) that is provided via the access point 121 .
- a service e.g., an in-flight entertainment and/or shopping service
- the transmitting (Block 220 ) operation(s) may be performed while the passenger is on board the transportation vehicle 120 , such as via the access point 121 .
- the transmitting (Block 220 ) operation(s) may be performed while bypassing any local area network (including bypassing the access point 121 ) of the aircraft 120 A, after the passenger completes a flight of the aircraft 120 A.
- Block 220 illustrates transmitting boarding pass data and an access point ID, it will be understood that other examples of different first and second data indicating the onboard presence of the passenger may be transmitted from the wireless electronic device 101 to the server 135 .
- the wireless electronic device 101 may determine (Block 217 ) its location via GPS, and may transmit the boarding pass data and location data to the server 135 .
- Other examples of data indicating the onboard presence of the passenger include facial recognition of the passenger, fingerprint recognition of the passenger, and the speed (i.e., velocity) of the transportation vehicle 120 as measured by the wireless electronic device 101 (e.g., by accelerometer(s)/gyroscope(s) 359 ( FIG. 3 ) therein).
- the measured speed of the aircraft 120 A while airborne should exceed the speed of a car or a train, and thus can be used (e.g., by comparing with a predetermined threshold value) to verify that the passenger is airborne.
- the transmitting operations of Blocks 217 and 220 may include transmitting respective time stamps indicating when the different data were generated by wireless electronic device 101 , thus further verifying that the passenger was airborne when the data were generated.
- the server 135 /data center which may include one or more remote computers/processors, may perform the operations of Blocks 230 and 240 .
- the server 135 may process (Block 230 ) the different data at the server 135 .
- the server 135 may compare the different data with predetermined values corresponding to the transportation vehicle 120 .
- the server 135 may compare the different data with flight data, such as a flight path/altitude, of an aircraft 120 A, or with other expected values for the aircraft 120 A.
- the result of the processing/verification may then be transmitted (Block 240 ) from the server 135 to a third party.
- the server 135 indicates to the third party whether the passenger is physically present onboard the transportation vehicle 120 .
- the server 135 may perform a check on the boarding pass data and the access point data (or GPS location/altitude) and may confirm that the passenger is/was on board the particular flight.
- Such data can be used by providers of any relevant business, such as duty-free shopping, or by organizations that use such verification for value-added tax refunds or any relevant legal use.
- the arrival of the passenger at a destination can be confirmed via the passenger's wireless electronic device 101 after disembarking the transportation vehicle 120 .
- the passenger's boarding pass e.g., an electronic and/or physical/paper boarding pass
- the passenger's wireless electronic device 101 may indicate a departing airport and an arrival airport
- an application resident on the passenger's wireless electronic device 101 can check/access one or more Wi-Fi access points 121 W (and, in some embodiments, can transmit ID(s) thereof) at the arrival airport to confirm that the passenger has arrived at the destination.
- the passenger's wireless electronic device 101 may also check/access one or more Wi-Fi access points 121 W at the departing airport to identify the passenger's presence/location before departing for the destination.
- Such checking/accessing of Wi-Fi access points 121 W at the arrival airport and/or the departing airport may be performed via a database, such as an application database that the resident application has stored or a remote/outsourced database of access point 121 identifiers that the wireless electronic device 101 can check.
- the application database may list Wi-Fi access points 121 W that the wireless electronic device 101 has actively/physically checked/accessed and/or may list Wi-Fi access points 121 W that are known to be at a particular location.
- the resident application may compare the Wi-Fi access point(s) 121 W accessed by the wireless electronic device 101 with the known Wi-Fi access points 121 W.
- the passenger can input (e.g., in response to a prompt/request from the resident application) biometric data, such as via a fingerprint scan or a face scan, at the departing airport and/or the arrival airport, to confirm that another person is not using the wireless electronic device 101 and/or the boarding pass.
- biometric data such as via a fingerprint scan or a face scan
- the wireless electronic device 101 may submit a time stamp indicating when the passenger is/was at the departing airport and/or the arrival airport.
- the passenger may initiate (Block 205 ) a transaction, such as a purchase of an item (or items), at a first physical location that is a physical store, such as a duty-free shop at an airport.
- the initiation (Block 205 ) may be performed via the passenger's wireless electronic device 101 , such as by a mobile payment application running on the wireless electronic device 101 while within close/short-range communications distance with a mobile payment (i.e., point-of-sale) terminal/reader at the physical store.
- the initiation (Block 205 ) may be performed between the wireless electronic device 101 and the mobile payment terminal/reader via a close/short-range first air interface (e.g., an NFC interface), in response to the wireless electronic device 101 satisfying a proximity criterion with respect to (e.g., by being moved within a few centimeters of) the mobile payment terminal/reader.
- a close/short-range first air interface e.g., an NFC interface
- the transaction may then be authorized by verifying (Block 230 ′) the passenger's identity and/or location while the wireless electronic device 101 is in a distinct, separate second physical location/jurisdiction from the first physical location.
- a passenger may initiate (Block 205 ) the transaction based on the proximity of the passenger's wireless electronic device 101 to a point-of-sale device at a duty-free shop in a first jurisdiction.
- the passenger may then authorize/verify (Block 230 ′) the transaction in a different, remote second jurisdiction by confirming arrival at the second jurisdiction.
- the passenger may confirm arrival by (i) connecting the wireless electronic device 101 to, and identifying (e.g., transmitting an ID of), an access point 121 at an arrival airport, by (ii) transmitting a GPS location from the second jurisdiction, and/or by (iii) transmitting biometric data and/or a time stamp from the second jurisdiction.
- the verifying operation(s) of Block 230 ′ may be the operations of Blocks 210 - 240 of FIG. 2A . Accordingly, the operation(s) of Block 205 may precede/trigger those of Blocks 210 - 240 .
- the jurisdiction (e.g., country) of the second physical location may be the same as that of the first physical location as long as the second physical location is outside of the physical store. Alternatively, the second physical location may only be an airborne location or a location in a different country from the physical store.
- Blocks 205 and 230 ′ An example of the operations of Blocks 205 and 230 ′ is that a passenger may walk into a duty-free shop at an airport and initiate (Block 205 ) a purchase using the passenger's smartphone 101 S at the point of sale. At this stage (Block 205 ), the transaction has been initiated but not completed. The passenger may also provide the mailing address where the purchased item(s) is to be mailed when the transaction in complete. After initiating (Block 205 ) the transaction at the first physical location, the passenger travels to a second physical location (e.g., an airborne location and/or another country), where the passenger's location (determined based on the smartphone 101 S via local area access point(s) 121 /GPS) and/or identity can be verified (Block 230 ′).
- a second physical location e.g., an airborne location and/or another country
- the passenger may be required to scan a boarding pass at the new/second physical location, thus further increasing the verification accuracy. Additionally or alternatively, the passenger may be required to scan the boarding pass at the mailing address of delivery of the purchased item(s) and/or to provide local area access point verification at that point. All of the verification data may be provided by the passenger via an application of the smartphone 101 S.
- Block 230 ′ which may be processed by a server 135 (e.g., a server of the duty-free shop or a third party), the transaction is deemed completed (Block 250 ) and the purchased item(s) can be mailed (Block 260 ) to the passenger directly, thus providing a duty-free direct shipping service.
- a server 135 e.g., a server of the duty-free shop or a third party
- the operations of FIG. 2B may, in some embodiments of the present inventive concepts, be performed independently of the presence of the passenger on board a transportation vehicle 120 .
- the method may include generating (Block 217 ′), via a wireless electronic device 101 of the passenger while at the destination, different first and second (or more) data indicating the identity and/or location of the passenger.
- the different first and second data may be biometric data and location data, respectively.
- the location data may include GPS data and/or data identifying an access point 121 at the destination.
- the method may also include transmitting (Block 220 ′) the different first and second data indicating the identity and/or location of the passenger from the wireless electronic device 101 to a server 135 (and/or a data center).
- Blocks 217 ′ and 220 ′ may be performed without identifying/confirming the onboard presence of the passenger and/or without using boarding pass data. Accordingly, although some embodiments herein describe onboard presence and boarding pass data, the present inventive concepts are not limited to onboard presence and boarding pass data. After performing the operations of Blocks 217 ′ and 220 ′, the operations of Blocks 230 and/or 240 of FIG. 2A may be performed.
- a wireless electronic device 101 such as a smartphone 101 S, according to some embodiments.
- a wireless electronic device 101 may include an antenna system 346 , a transceiver 342 , a processor (e.g., processor circuit) 351 , and a memory 353 .
- the wireless electronic device 101 may optionally include a display 354 , a user interface 352 , a microphone/speaker 350 , one or more accelerometers/gyroscopes 359 , a camera 358 , a barometer 357 , and/or a fingerprint (or other biometric) sensor 356 .
- a transmitter portion of the transceiver 342 may convert information, which is to be transmitted by the wireless electronic device 101 , into electromagnetic signals suitable for radio communications.
- a receiver portion of the transceiver 342 may demodulate electromagnetic signals, which are received by the wireless electronic device 101 (e.g., from one of the transmitters illustrated in FIG. 1 ).
- the transceiver 342 may include transmit/receive circuitry (TX/RX) that provides separate communication paths for supplying/receiving RF signals to different radiating elements of the antenna system 346 via their respective RF feeds.
- TX/RX transmit/receive circuitry
- the transceiver 342 may include two transmit/receive circuits 343 , 345 connected to different ones of the antenna elements via the respective RF feeds.
- the transmit/receive circuit 343 may be connected to a Wi-Fi antenna or a close/short-range (e.g., a Near-Field Communication (NFC) or BLUETOOTH®) antenna, whereas the transmit/receive circuit 345 may be connected to a cellular antenna.
- the antenna system 346 /transceiver 342 may include a GPS receiver.
- the memory 353 can store computer program instructions that, when executed by the processor circuit 351 , carry out operations of the wireless electronic device 101 .
- the server 135 may include a memory 353 that can store computer program instructions that, when executed by a processor circuit 351 of the server 135 , carry out operations of the server 135 .
- the memory 353 can be a non-transitory computer readable storage medium including computer readable program code therein that when executed by the processor 351 causes the processor 351 to perform a method described herein.
- the memory 353 can store the resident application described herein, which can perform the operations illustrated in Blocks 210 - 220 of the flow chart of FIG. 2A .
- the memory 353 can be, for example, a non-volatile memory, such as a flash memory, that retains the stored data while power is removed from the memory 353 .
- GUI Graphical User Interface
- the GUI 410 illustrates an web page or resident application that facilitates (e.g., guides the passenger through) the operations of Blocks 210 - 220 of FIG. 2A .
- FIG. 4 shows that the web page or resident application may prompt the passenger to scan/photograph the passenger's boarding pass.
- the GUI 410 may display a user-selectable button 410 - 1 that initiates camera functionality to scan/photograph the boarding pass.
- camera functionality to scan/photograph the boarding pass may be automatically initiated upon opening/starting the web page or resident application, and the button 410 - 1 may be omitted.
- the GUI 410 may display a user-selectable button 410 - 2 that initiates connecting/communicating with a local area access point 121 and storing an ID of the local area access point 121 .
- connecting/communicating with the local area access point 121 and storing its ID may be automatically initiated upon opening/starting the web page or resident application, and the button 410 - 2 may be omitted.
- the web page or resident application may cause the wireless electronic device 101 to automatically connect/communicate with the local area access point 121 and transmit the boarding pass data and access point ID to a server 135 , in response to scanning/photographing the boarding pass and/or in response to opening/starting the web page or resident application.
- the GUI 410 may display a user-selectable button 410 - 3 that initiates a face scan or a fingerprint scan of the passenger. For example, if accessing an ID of the local area access point 121 is not available, or if data transmissions by the wireless electronic device 101 via the local area access point 121 are not available, then the passenger may select the button 410 - 3 . Moreover, in some embodiments, the button 410 - 2 may be automatically omitted if accessing an ID of the local area access point 121 is not available or if data transmissions by the wireless electronic device 101 via the local area access point 121 are not available.
- buttons 410 - 1 , 410 - 2 , and 410 - 3 may be selected via user inputs by the passenger, such as via inputs to a touchscreen of the wireless electronic device 101 .
- other user inputs such as inputs via a stylus, cursor, or keypad, may be used.
- a passenger of a flight may order/purchase items via a web page or resident application that is accessed by the wireless electronic device 101 .
- the GUI 410 may display user-selectable options for purchasing items, such as duty-free items.
- the passenger may attempt to unlawfully purchase multiple (i.e., two or more) items via the web page or resident application.
- the passenger may attempt to use the web page or resident application (e.g., by using the web page or resident application repeatedly for purchases) to circumvent rules/systems and take items in excess of an amount allowed by a particular jurisdiction's customs.
- the web page or resident application can access a database of an airport/airline duty-free shop to verify that the passenger exporting (or entity exporting on behalf of the passenger) has not already purchased a maximum amount (e.g., has not exceeded personal-use quantities of duty-free merchandise) allowed by a certain (i.e., particular) jurisdiction.
- the operations of Blocks 220 , 220 ′, 230 , and/or 230 ′ of FIGS. 2A-2C may include accessing, via the web page or resident application, the database to verify whether the passenger has purchased the maximum amount. If the maximum amount has already been purchased, then the web page or resident application may block subsequent purchases for that passenger. Accordingly, the web page or resident application can provide safeguards against excess duty-free purchases.
- FIG. 5 illustrates a block diagram of an example processor 351 and memory 353 that may be used in accordance with various embodiments of the present inventive concepts.
- the processor 351 communicates with the memory 353 via an address/data bus 590 .
- the processor 351 may be, for example, a commercially available or custom microprocessor. Moreover, the processor 351 may include multiple processors.
- the memory 353 is representative of the overall hierarchy of memory devices containing the software and data used to implement various functions as described herein.
- the memory 353 may include, but is not limited to, the following types of devices: cache, ROM, PROM, EPROM, EEPROM, flash, Static RAM (SRAM), and Dynamic RAM (DRAM).
- the memory 353 may hold various categories of software and data, such as an operating system 583 .
- the processor 351 and memory 353 may be part of a wireless electronic device 101 or a server 135 . Accordingly, the operating system 583 can control operations of the wireless electronic device 101 or the server 135 . In particular, the operating system 583 may manage the resources of the wireless electronic device 101 or the server 135 and may coordinate execution of various programs (e.g., a resident application described herein) by the processor 351 .
- various programs e.g., a resident application described herein
- Embodiments described herein can greatly enhance (e.g., by simplifying) the duty-free shopping experience. Moreover, a passenger does not have to carry duty-free shopping items on board a flight. Rather, such items can be delivered directly to an address (e.g., a residential or business address) of the passenger's choosing.
- an address e.g., a residential or business address
- a boarding pass and a local area access point identification e.g., identification of on board Wi-Fi
- respective time stamps by a smartphone 101 S
- the present inventive concepts are not limited thereto. Rather, other forms of identifying the passenger can be used instead of the boarding pass.
- biometrics such as fingerprint recognition and/or facial recognition can be used in the place of the boarding pass.
- smartphones 101 S may have a built-in barometer 357 , such a barometer 357 can be used to measure altitude/change in altitude and thus can provide another way to verify whether a person is airborne.
- the present inventive concepts are limited to duty-free shopping. Rather, some embodiments may be used to enhance (e.g., simplify) security protocols. For example, airlines may wish to verify that the respective owners of checked bags on an aircraft 120 A are on board. If a passenger is not present on the aircraft 120 A, then any bag checked by the passenger may be removed or blocked from loading. Accordingly, the present inventive concepts herein may be applied to airline security protocols to improve efficiency and/or effectiveness.
- a passenger of a transportation vehicle 120 can qualify for duty-free shopping without presenting a boarding pass at an airport for purchased duty-free merchandise. This can be accomplished by verifying, via the two-factor authentication described herein, that the passenger was on board a particular flight from one jurisdiction to another jurisdiction.
- a passenger of an aircraft 120 A can obtain a refund for the passenger's payment of a value-added tax without filing, at an airport, a form to obtain the refund. This can be accomplished by verifying, via the two-factor authentication described herein, that the passenger was on board a particular flight from one jurisdiction to another jurisdiction.
- An airline, and/or a security agency can verify that an owner of one or more checked bags (i.e., checked luggage) is on board the aircraft 120 A for which the bag(s) have been checked. This can be accomplished by verifying, via the two-factor authentication described herein, whether the passenger is on board the aircraft 120 A.
- checked bags i.e., checked luggage
- a passenger of an aircraft 120 A can initiate, without completing, a purchase via a smartphone 101 S at a point-of-sale in a duty-free shop at an airport.
- the purchase can subsequently be completed at a different physical location based on verification of the passenger's identity and/or location, via the two-factor authentication described herein.
- a jurisdiction can safeguard against excess duty-free purchases by verifying, when a passenger attempts to purchase duty-free merchandise remotely via a web page or resident application of a wireless electronic device 101 , whether the passenger has already purchased a maximum amount of duty-free merchandise for that jurisdiction.
- the arrival of a passenger at a destination can be confirmed.
- a destination e.g., an arrival airport
- the present inventive concepts can be used to confirm that the minor has arrived at the destination after disembarking the aircraft 120 A.
- the present inventive concepts can be used for immigration purposes to confirm that a person has exited one country and/or entered another country.
- a resident application of a wireless electronic device 101 of the passenger can check/verify after a predetermined duration whether the passenger has exited the country.
- authorities can require that the passenger download the resident application and transmit confirmation of an exit of the jurisdiction.
- the present inventive concepts are not limited thereto. Rather, some embodiments may provide verification of the presence of a passenger on board a car, train, bus, or other land-based transportation vehicle 120 . Additionally or alternatively, although some examples herein discuss a smartphone 101 S, a laptop computer, a tablet computer, or any other portable, wireless electronic device with communications capability may be used.
- the verification/use of the onboard presence of a passenger may be omitted from one or more operations described herein. For example, the arrival of a passenger at a destination, and/or the authorization/verification of a duty-free purchase at a remote location different from the location where the purchase was initiated, may be confirmed/completed in a method that omits the identification/confirmation of the onboard presence of the passenger.
- the passenger may, in some embodiments, provide biometric data by opening/unlocking the wireless electronic device 101 , such as by a fingerprint scan or face (and/or retina) scan of the passenger that opens/unlocks the wireless electronic device 101 .
- biometric data that is used/transmitted according to the present inventive concepts to confirm the location/identity of the passenger may be data that is generated/provided when the passenger opens/unlocks the wireless electronic device 101 .
- first and second may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another element. Thus, a first element could be termed a second element, and similarly, a second element may be termed a first element without departing from the teachings of the present inventive concepts.
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Abstract
Description
- The present application is a continuation of U.S. patent application Ser. No. 15/840,831, filed Dec. 13, 2017, which itself claims the benefit of U.S. Provisional Patent Application No. 62/594,214, filed Dec. 4, 2017, entitled Methods of Verifying the Onboard Presence of a Passenger, and Related Wireless Electronic Devices, the disclosure of both of which are hereby incorporated herein in their entireties by reference.
- The present inventive concepts relate to communications systems, methods, and devices and, more particularly, to systems, methods, and devices that use communications to verify the physical presence of a person.
- In many jurisdictions, an airplane passenger may be required to verify that the passenger was on board a particular flight from one jurisdiction to another jurisdiction, such as from one country to another country. For example, to qualify for duty-free shopping, a passenger may be required to present a boarding pass. Similarly, when flying from one country to another, a passenger may need to file, at an airport, a form to obtain a refund for the passenger's payment of a value-added tax.
- According to some embodiments of the present inventive concepts, methods of verifying an onboard presence of a passenger of a transportation vehicle are provided. The methods may include generating, via a wireless electronic device of the passenger while on board the transportation vehicle, different first and second data indicating the onboard presence of the passenger. Moreover, the methods may include transmitting the different first and second data indicating the onboard presence of the passenger from the wireless electronic device to a server.
- In some embodiments, the transportation vehicle may be an aircraft, and the transmitting may be performed by the wireless electronic device while on board the aircraft. Additionally or alternatively, the first data indicating the onboard presence of the passenger may be boarding pass data, and the generating may include generating the boarding pass data by using a camera of the wireless electronic device. For example, the generating the boarding pass data may include scanning, via the camera of the wireless electronic device, a bar code or QR code of a physical boarding pass of the passenger. Additionally or alternatively, the generating the boarding pass data may include taking a photograph, via the camera of the wireless electronic device, of a physical boarding pass of the passenger. Moreover, the transmitting may include transmitting the photograph of the physical boarding pass of the passenger from the wireless electronic device to the server.
- According to some embodiments, the second data indicating the onboard presence of the passenger may include an identification of a local-area-network access point that is on board the transportation vehicle, and the generating may include generating the identification of the local-area-network access point by using the wireless electronic device to access the local-area-network access point. For example, the local-area-network access point may include a Wi-Fi access point that is on board the transportation vehicle, and the generating may include generating an identification of the Wi-Fi access point by using the wireless electronic device to access a service provided via the Wi-Fi access point.
- In some embodiments, the first data indicating the onboard presence of the passenger may include biometric data of the passenger, and the generating may include generating the biometric data by using a camera or other sensor of the wireless electronic device. Additionally or alternatively, the second data indicating the onboard presence of the passenger may include location data of the transportation vehicle, and the generating may include generating the location data of the transportation vehicle by using a Global Positioning System (GPS) receiver of the wireless electronic device. Moreover, the transportation vehicle may include an aircraft, and the location data may include altitude data of the aircraft. Furthermore, the transmitting may be performed by the wireless electronic device while bypassing any local area network of the aircraft, after the passenger disembarks from a flight of the aircraft.
- According to some embodiments, the transportation vehicle may be an aircraft, the second data indicating the onboard presence of the passenger may include altitude data of the aircraft, and the generating may include generating the altitude data of the transportation vehicle by using a barometer of the wireless electronic device.
- In some embodiments, the first data indicating the onboard presence of the passenger may include boarding pass data, and the second data indicating the onboard presence of the passenger may include an identification of a local-area-network access point that is on board the transportation vehicle. Moreover, the transmitting may include transmitting first and second time stamps indicating when the boarding pass data and the identification of the local-area-network access point, respectively, were generated by the wireless electronic device.
- According to some embodiments, the first data indicating the onboard presence of the passenger may include boarding pass data, and the second data indicating the onboard presence of the passenger may include location data of the transportation vehicle. Moreover, the transmitting may include transmitting first and second time stamps indicating when the boarding pass data and the location data, respectively, were generated by the wireless electronic device.
- In some embodiments, the methods may include initiating, via the wireless electronic device while at a first physical location including a store, a transaction to purchase one or more items from the store. Moreover, the methods may include completing, via the wireless electronic device while at a second physical location outside of the store, the transaction in response to verifying an identity and/or location of the passenger. The second physical location may include a location on board the transportation vehicle, and the verifying may include performing the generating and the transmitting.
- According to some embodiments, the methods may include accessing, via a web page or an application that is resident on the wireless electronic device, a database to verify whether the passenger has purchased a maximum amount of duty-free purchases for a particular jurisdiction. Additionally or alternatively, the methods may include transmitting third data indicating that the passenger has arrived at a destination.
- In some embodiments, a wireless electronic device may be configured to perform any combination or subcombination of the methods described herein. Additionally or alternatively, a computer program product may be provided that includes a non-transitory computer readable storage medium including computer readable program code therein that when executed by a processor causes the processor to perform any combination or subcombination of the methods described herein.
- Wireless electronic devices, according to some embodiments of the present inventive concepts, may include a processor configured to generate different first and second data indicating a presence of a passenger on board a transportation vehicle. The wireless electronic devices may also include a transceiver configured to transmit the different first and second data indicating the presence of the passenger from the wireless electronic device to a server. Moreover, the wireless electronic devices may include a camera, and the processor may be further configured to generate the first data by using the camera to capture an image of a boarding pass of the passenger. Analogous methods and/or computer program products also may be provided.
- Methods of verifying, via a server, according to some embodiments of the present inventive concepts, an onboard presence of a passenger of a transportation vehicle may be provided. The methods may include receiving at the server, from a wireless electronic device of the passenger, different first and second data indicating the onboard presence of the passenger. The methods may include processing the different first and second data at the server. Moreover, the methods may include transmitting a result of the processing from the server to a third party. Analogous servers, wireless electronic devices, and/or computer program products also may be provided.
- In some embodiments, the processing may include comparing the different first and second data with predetermined values corresponding to the transportation vehicle. Additionally or alternatively, the transmitting may include transmitting an authorization to complete a transaction to purchase one or more items initiated via the wireless electronic device at a physical store. Moreover, the methods may include receiving at the server, from the wireless electronic device of the passenger, third data indicating that the passenger has arrived at a destination. Analogous servers, wireless electronic devices, and/or computer program products also may be provided.
- According to some embodiments, a server may configured to perform any combination or subcombination of the methods of verifying, via a server, the onboard presence of the passenger of the transportation vehicle described herein. Additionally or alternatively, a computer program product may be provided that includes a non-transitory computer readable storage medium including computer readable program code therein that when executed by a processor causes the processor to perform any combination or subcombination of the methods described herein. Analogous wireless electronic devices and/or methods also may be provided.
-
FIG. 1 is a schematic diagram illustrating a geographical area that includes a wireless electronic device, according to some embodiments of the present inventive concepts. -
FIGS. 2A, 2B, and 2C are flowcharts illustrating operations of verifying the identity and/or location of a passenger of a transportation vehicle, according to some embodiments of the present inventive concepts. -
FIG. 3 is a block diagram of a wireless electronic device, according to some embodiments of the present inventive concepts. -
FIG. 4 is a diagram of a graphical user interface of a wireless electronic device, according to some embodiments of the present inventive concepts. -
FIG. 5 is a block diagram of an example processor and memory that may be used in accordance with embodiments of the present inventive concepts. - Example embodiments of the present inventive concepts now will be described with reference to the accompanying drawings. The present inventive concepts may, however, be embodied in a variety of different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the present inventive concepts to those skilled in the art. In the drawings, like designations refer to like elements.
- Some embodiments of the present inventive concepts provide for verification that a person was on board a flight, without requiring a check at an airport gate or checking/accessing (e.g., consulting/inquiring) any passenger log data.
- Referring to
FIG. 1 , a wirelesselectronic device 101 is illustrated in ageographical area 102. The wirelesselectronic device 101 may be (or may be a part of) one of various types of wireless electronic user devices, including mobile/cell phones, as well as wireless user devices without phone capabilities. For example, the wirelesselectronic device 101 may be asmartphone 101S, a laptop computer, a tablet computer, or any other portable, wireless electronic device with communications capability. The wirelesselectronic device 101 can be located anywhere inside thegeographical area 102. Moreover, the wirelesselectronic device 101 can, in some embodiments, be located inside anaircraft 120A (or other transportation vehicle 120). AlthoughFIG. 1 illustrates a single wirelesselectronic device 101, a plurality of wirelesselectronic devices 101 may be located inside thegeographical area 102 or inside theaircraft 120A. As an example, in some embodiments, hundreds, thousands, or more wirelesselectronic devices 101 may be located inside thegeographical area 102. - The wireless
electronic device 101 may wirelessly receive signals from transmitters such as a Base Station (BS)(e.g., a cellular BS), a satellite, and/or a Positioning Beacon (PB) of a Terrestrial Beacon Network (TBN). It will be understood that thegeographical area 102 may include any number of (e.g., three, four, dozens, or more) BSs and/or PBs. Moreover, the wirelesselectronic device 101 may receive signals from a Wi-Fihot spot 121W (or other local-area-network access point 121) in the geographical area 102 (or in theaircraft 120A) and/or aGPS network 174. Accordingly, it will be understood that the physical presence (e.g., location/position) of the wirelesselectronic device 101 may be determined using signals to/from the BSs, PBs, the Wi-Fihot spot 121W, and/or theGPS network 174. For example, in some embodiments, a server 135 (or other remote computer/processor) that is communicatively connected to a BS and/or Wi-Fihot spot 121W may process data regarding the physical presence of the wirelesselectronic device 101. - In some embodiments of the present inventive concepts, a resident (and/or a remote, cloud-based) application used by a
smartphone 101S (or other wirelesselectronic device 101 with communications capability) may scan, or take a photo of, a passenger's boarding pass for a flight. The scan or photo may be initiated by the passenger or can be automatic (e.g., can be initiated by the application resident on thesmartphone 101S). For example, an image of the boarding pass may be captured while the passenger is on board the flight for which the boarding pass is required. - The application resident on the
smartphone 101S may transmit information generated by scanning or photographing a physical (e.g., paper) boarding pass. For example, if the scan is a barcode scan or QR code scan, then data generated by the scan may be transmitted. If, on the other hand, a photo of the boarding pass is taken, then the photo may be transmitted. - The application may also transmit an identification of an
access point 121, such as a Wi-Fi access point 121W or other local-area-communication access point that is used by thesmartphone 101S while on board the flight. The identification may include, for example, a Media Access Control address (MAC address) of theaccess point 121 and/or a Service Set Identifier (SSID) of theaccess point 121. By transmitting boarding pass data and an identification of anaccess point 121 that is on board the flight, the passenger's physical presence on board the flight can be verified via the smartphone/device application. This is one example of transmitting two different data indicating onboard presence to provide two-factor (or as a part of providing other multi-factor, such as three-factor) authentication. - Additionally or alternatively, if no local-area-communication method is available, then the smartphone/device application may determine its location/altitude using Global Positioning System (GPS) capability (e.g., GPS hardware and/or software) of the
smartphone 101S. For example, thesmartphone 101S may include a GPS receiver that is configured to determine the location/altitude while the passenger is onboard theaircraft 120A. - The boarding pass data and access point identification (e.g., MAC address and/or SSID) may be transmitted by the smartphone/device application to a server 135 (e.g., at a data center) to provide verification of the passenger's presence on board the flight. The transmission to the
server 135 may be completed while the passenger is on board the flight or, if communications are not available on the flight, after the flight (e.g., after disembarkation of the flight). Some local-area-networks, such as Wi-Fi, may not allow the application to transmit data. As long as the application has a time stamp of the boarding pass data and the access point data (or GPS location/altitude) that can be stored via the application, a verification can be performed. After theserver 135 processes/performs the verification, it may transmit the result to a third-party, such as an airline, a duty-free shopping merchant, or an organization that provides value-added tax refunds. - Referring to
FIG. 2A , a flowchart is provided illustrating operations of verifying an onboard presence of a passenger of atransportation vehicle 120, such as theaircraft 120A, according to the present inventive concepts. As the passenger is the user/owner of the wireless electronic device 101 (e.g., asmartphone 101S), verifying the onboard presence of the wirelesselectronic device 101 may provide a verification of the onboard presence of the passenger. - As shown in
FIG. 2A , the wirelesselectronic device 101 may scan or photograph (Block 210) a boarding pass of the passenger while onboard thetransportation vehicle 120. As a result, the wirelesselectronic device 101 may generate data indicating the onboard presence of the passenger. The wirelesselectronic device 101 may generate additional, different data indicating the onboard presence of the passenger by connecting to a local-area-network access point 121, such as a Wi-Fihot spot 121W that is on board thetransportation vehicle 120. The additional, different data may be an identification/identifier (ID) of theaccess point 121. For example, the ID of theaccess point 121 may be a predetermined ID, such as a MAC address and/or an SSID, that is known/stored by aserver 135. Accordingly, operations described herein of “generating” an ID may refer to copying/storing a predetermined ID at the wirelesselectronic device 101 before transmitting the ID. The access point ID transmitted by the wirelesselectronic device 101 can then be compared (e.g., by a server 135) with a known/stored access point ID to verify the presence of the wirelesselectronic device 101 on board thetransportation vehicle 120 having theaccess point 121. - When the
access point 121 is inside anaircraft 120A, a person outside of theaircraft 120A may not be able to connect to theaccess point 121, as a network/service provided via theaccess point 121 may not become enabled/accessible until wirelesselectronic devices 101 are approved for use after take-off (and/or after reaching a threshold altitude, such as 10,000 feet or higher) of theaircraft 120A. This may ensure that a passenger using the wirelesselectronic device 101 to connect to theaccess point 121 is on board (and not merely nearby) theaircraft 120A. In some embodiments, a provider of a Wi-Fi service that is accessible via a Wi-Fi access point 121W on anaircraft 120A may have an agreement/contract with an airline to allow passengers to connect with, and transmit data indicating the passengers' onboard presence through, the Wi-Fi access point 121W, at no additional charge to the passengers. - Additionally or alternatively, a passenger's onboard presence can be verified by providing (i) GPS/altitude data, (ii) data indicating that the
aircraft 120A is in/above a jurisdiction different from that of the take-off location, and/or (iii) a time stamp indicating when the wirelesselectronic device 101 accessed theaccess point 121, in addition to (or as an alternative to) providing an ID of theaccess point 121. For example, when the ID of anaccess point 121 is provided by a passenger as part of the multi-factor authentication described herein, the multi-factor authentication may use at least three factors. - In some embodiments, the generation of data can be prompted by an application resident on the wireless
electronic device 101. For example, upon starting/opening the application, the application may automatically initiate camera functionality of the wirelesselectronic device 101 and/or may prompt the passenger to scan/photograph the boarding pass via the wirelesselectronic device 101. Additionally or alternatively, the application may prompt the passenger to provide one or more other identifying data via user input(s). As an example, the application may prompt the passenger to provide a face scan or a fingerprint scan. - After the operation(s) of
Block 210, the wirelesselectronic device 101 may then transmit (Block 220) the boarding pass data and the access point ID to a server 135 (e.g., at a data center), if theaccess point 121 is available on board the transportation vehicle 120 (Block 215). For example, the wirelesselectronic device 101 may generate/store the access point ID in response to using the wirelesselectronic device 101 to access a service (e.g., an in-flight entertainment and/or shopping service) that is provided via theaccess point 121. - In some embodiments, the transmitting (Block 220) operation(s) may be performed while the passenger is on board the
transportation vehicle 120, such as via theaccess point 121. Alternatively, the transmitting (Block 220) operation(s) may be performed while bypassing any local area network (including bypassing the access point 121) of theaircraft 120A, after the passenger completes a flight of theaircraft 120A. Moreover, althoughBlock 220 illustrates transmitting boarding pass data and an access point ID, it will be understood that other examples of different first and second data indicating the onboard presence of the passenger may be transmitted from the wirelesselectronic device 101 to theserver 135. - For example, if the
access point 121 is not available (Block 215), then the wirelesselectronic device 101 may determine (Block 217) its location via GPS, and may transmit the boarding pass data and location data to theserver 135. Other examples of data indicating the onboard presence of the passenger include facial recognition of the passenger, fingerprint recognition of the passenger, and the speed (i.e., velocity) of thetransportation vehicle 120 as measured by the wireless electronic device 101 (e.g., by accelerometer(s)/gyroscope(s) 359 (FIG. 3 ) therein). As an example, the measured speed of theaircraft 120A while airborne should exceed the speed of a car or a train, and thus can be used (e.g., by comparing with a predetermined threshold value) to verify that the passenger is airborne. Furthermore, in some embodiments, the transmitting operations ofBlocks electronic device 101, thus further verifying that the passenger was airborne when the data were generated. - After the wireless
electronic device 101 performs the operations of Blocks 210-220, theserver 135/data center, which may include one or more remote computers/processors, may perform the operations ofBlocks server 135 may process (Block 230) the different data at theserver 135. For example, theserver 135 may compare the different data with predetermined values corresponding to thetransportation vehicle 120. As an example, theserver 135 may compare the different data with flight data, such as a flight path/altitude, of anaircraft 120A, or with other expected values for theaircraft 120A. The result of the processing/verification (Block 230) may then be transmitted (Block 240) from theserver 135 to a third party. By this result (e.g., YES or NO), theserver 135 indicates to the third party whether the passenger is physically present onboard thetransportation vehicle 120. - Accordingly, the
server 135 may perform a check on the boarding pass data and the access point data (or GPS location/altitude) and may confirm that the passenger is/was on board the particular flight. Such data can be used by providers of any relevant business, such as duty-free shopping, or by organizations that use such verification for value-added tax refunds or any relevant legal use. - In addition to, or as an alternative to, checking/using an
access point 121 that is on board thetransportation vehicle 120, the arrival of the passenger at a destination can be confirmed via the passenger's wirelesselectronic device 101 after disembarking thetransportation vehicle 120. For example, the passenger's boarding pass (e.g., an electronic and/or physical/paper boarding pass) may indicate a departing airport and an arrival airport, and an application resident on the passenger's wirelesselectronic device 101 can check/access one or more Wi-Fi access points 121W (and, in some embodiments, can transmit ID(s) thereof) at the arrival airport to confirm that the passenger has arrived at the destination. In some embodiments, the passenger's wirelesselectronic device 101 may also check/access one or more Wi-Fi access points 121W at the departing airport to identify the passenger's presence/location before departing for the destination. - Such checking/accessing of Wi-
Fi access points 121W at the arrival airport and/or the departing airport may be performed via a database, such as an application database that the resident application has stored or a remote/outsourced database ofaccess point 121 identifiers that the wirelesselectronic device 101 can check. For example, the application database may list Wi-Fi access points 121W that the wirelesselectronic device 101 has actively/physically checked/accessed and/or may list Wi-Fi access points 121W that are known to be at a particular location. In some embodiments, the resident application may compare the Wi-Fi access point(s) 121W accessed by the wirelesselectronic device 101 with the known Wi-Fi access points 121W. - Moreover, the passenger can input (e.g., in response to a prompt/request from the resident application) biometric data, such as via a fingerprint scan or a face scan, at the departing airport and/or the arrival airport, to confirm that another person is not using the wireless
electronic device 101 and/or the boarding pass. Additionally or alternatively, the wirelesselectronic device 101 may submit a time stamp indicating when the passenger is/was at the departing airport and/or the arrival airport. - Referring to
FIG. 2B , a flowchart is provided illustrating operations of authorizing a transaction by a passenger in response to verifying the identity and/or location of the passenger. The passenger may initiate (Block 205) a transaction, such as a purchase of an item (or items), at a first physical location that is a physical store, such as a duty-free shop at an airport. The initiation (Block 205) may be performed via the passenger's wirelesselectronic device 101, such as by a mobile payment application running on the wirelesselectronic device 101 while within close/short-range communications distance with a mobile payment (i.e., point-of-sale) terminal/reader at the physical store. In particular, the initiation (Block 205) may be performed between the wirelesselectronic device 101 and the mobile payment terminal/reader via a close/short-range first air interface (e.g., an NFC interface), in response to the wirelesselectronic device 101 satisfying a proximity criterion with respect to (e.g., by being moved within a few centimeters of) the mobile payment terminal/reader. - The transaction may then be authorized by verifying (
Block 230′) the passenger's identity and/or location while the wirelesselectronic device 101 is in a distinct, separate second physical location/jurisdiction from the first physical location. For example, a passenger may initiate (Block 205) the transaction based on the proximity of the passenger's wirelesselectronic device 101 to a point-of-sale device at a duty-free shop in a first jurisdiction. The passenger may then authorize/verify (Block 230′) the transaction in a different, remote second jurisdiction by confirming arrival at the second jurisdiction. The passenger may confirm arrival by (i) connecting the wirelesselectronic device 101 to, and identifying (e.g., transmitting an ID of), anaccess point 121 at an arrival airport, by (ii) transmitting a GPS location from the second jurisdiction, and/or by (iii) transmitting biometric data and/or a time stamp from the second jurisdiction. - As an example, the verifying operation(s) of
Block 230′ may be the operations of Blocks 210-240 ofFIG. 2A . Accordingly, the operation(s) ofBlock 205 may precede/trigger those of Blocks 210-240. Moreover, in some embodiments, the jurisdiction (e.g., country) of the second physical location may be the same as that of the first physical location as long as the second physical location is outside of the physical store. Alternatively, the second physical location may only be an airborne location or a location in a different country from the physical store. - An example of the operations of
Blocks smartphone 101S at the point of sale. At this stage (Block 205), the transaction has been initiated but not completed. The passenger may also provide the mailing address where the purchased item(s) is to be mailed when the transaction in complete. After initiating (Block 205) the transaction at the first physical location, the passenger travels to a second physical location (e.g., an airborne location and/or another country), where the passenger's location (determined based on thesmartphone 101S via local area access point(s) 121/GPS) and/or identity can be verified (Block 230′). Moreover, in some embodiments (e.g., in certain jurisdictions), the passenger may be required to scan a boarding pass at the new/second physical location, thus further increasing the verification accuracy. Additionally or alternatively, the passenger may be required to scan the boarding pass at the mailing address of delivery of the purchased item(s) and/or to provide local area access point verification at that point. All of the verification data may be provided by the passenger via an application of thesmartphone 101S. - Based on this verification (
Block 230′), which may be processed by a server 135 (e.g., a server of the duty-free shop or a third party), the transaction is deemed completed (Block 250) and the purchased item(s) can be mailed (Block 260) to the passenger directly, thus providing a duty-free direct shipping service. Furthermore, the operations ofFIG. 2B may, in some embodiments of the present inventive concepts, be performed independently of the presence of the passenger on board atransportation vehicle 120. - Moreover, referring to
FIG. 2C , a flowchart is provided illustrating operations for confirming the arrival of a passenger at a destination of atransportation vehicle 120, independently of identifying/confirming the presence of the passenger on board thetransportation vehicle 120. The method may include generating (Block 217′), via a wirelesselectronic device 101 of the passenger while at the destination, different first and second (or more) data indicating the identity and/or location of the passenger. For example, the different first and second data may be biometric data and location data, respectively. As an example, the location data may include GPS data and/or data identifying anaccess point 121 at the destination. The method may also include transmitting (Block 220′) the different first and second data indicating the identity and/or location of the passenger from the wirelesselectronic device 101 to a server 135 (and/or a data center). - The operations of
Blocks 217′ and 220′ may be performed without identifying/confirming the onboard presence of the passenger and/or without using boarding pass data. Accordingly, although some embodiments herein describe onboard presence and boarding pass data, the present inventive concepts are not limited to onboard presence and boarding pass data. After performing the operations ofBlocks 217′ and 220′, the operations ofBlocks 230 and/or 240 ofFIG. 2A may be performed. - Referring to
FIG. 3 , a block diagram is provided of a wireless electronic device (or “wireless electronic user device”) 101, such as asmartphone 101S, according to some embodiments. As illustrated inFIG. 3 , a wirelesselectronic device 101 may include anantenna system 346, atransceiver 342, a processor (e.g., processor circuit) 351, and amemory 353. Moreover, the wirelesselectronic device 101 may optionally include adisplay 354, a user interface 352, a microphone/speaker 350, one or more accelerometers/gyroscopes 359, acamera 358, abarometer 357, and/or a fingerprint (or other biometric) sensor 356. - A transmitter portion of the
transceiver 342 may convert information, which is to be transmitted by the wirelesselectronic device 101, into electromagnetic signals suitable for radio communications. A receiver portion of thetransceiver 342 may demodulate electromagnetic signals, which are received by the wireless electronic device 101 (e.g., from one of the transmitters illustrated inFIG. 1 ). Thetransceiver 342 may include transmit/receive circuitry (TX/RX) that provides separate communication paths for supplying/receiving RF signals to different radiating elements of theantenna system 346 via their respective RF feeds. Accordingly, when theantenna system 346 includes two active antenna elements, thetransceiver 342 may include two transmit/receivecircuits circuit 343 may be connected to a Wi-Fi antenna or a close/short-range (e.g., a Near-Field Communication (NFC) or BLUETOOTH®) antenna, whereas the transmit/receivecircuit 345 may be connected to a cellular antenna. Moreover, theantenna system 346/transceiver 342 may include a GPS receiver. - Referring still to
FIG. 3 , thememory 353 can store computer program instructions that, when executed by theprocessor circuit 351, carry out operations of the wirelesselectronic device 101. Additionally or alternatively, theserver 135 may include amemory 353 that can store computer program instructions that, when executed by aprocessor circuit 351 of theserver 135, carry out operations of theserver 135. In some embodiments, thememory 353 can be a non-transitory computer readable storage medium including computer readable program code therein that when executed by theprocessor 351 causes theprocessor 351 to perform a method described herein. As an example, thememory 353 can store the resident application described herein, which can perform the operations illustrated in Blocks 210-220 of the flow chart ofFIG. 2A . Thememory 353 can be, for example, a non-volatile memory, such as a flash memory, that retains the stored data while power is removed from thememory 353. - Referring to
FIG. 4 , a diagram of a Graphical User Interface (GUI) 410 of a wireless electronic device 101 (e.g., asmartphone 101S) is provided, according to some embodiments. TheGUI 410 illustrates an web page or resident application that facilitates (e.g., guides the passenger through) the operations of Blocks 210-220 ofFIG. 2A . For example,FIG. 4 shows that the web page or resident application may prompt the passenger to scan/photograph the passenger's boarding pass. As an example, theGUI 410 may display a user-selectable button 410-1 that initiates camera functionality to scan/photograph the boarding pass. Alternatively, camera functionality to scan/photograph the boarding pass may be automatically initiated upon opening/starting the web page or resident application, and the button 410-1 may be omitted. - In addition to the button 410-1, the
GUI 410 may display a user-selectable button 410-2 that initiates connecting/communicating with a localarea access point 121 and storing an ID of the localarea access point 121. Alternatively, connecting/communicating with the localarea access point 121 and storing its ID may be automatically initiated upon opening/starting the web page or resident application, and the button 410-2 may be omitted. Moreover, in some embodiments, the web page or resident application may cause the wirelesselectronic device 101 to automatically connect/communicate with the localarea access point 121 and transmit the boarding pass data and access point ID to aserver 135, in response to scanning/photographing the boarding pass and/or in response to opening/starting the web page or resident application. - In some embodiments, the
GUI 410 may display a user-selectable button 410-3 that initiates a face scan or a fingerprint scan of the passenger. For example, if accessing an ID of the localarea access point 121 is not available, or if data transmissions by the wirelesselectronic device 101 via the localarea access point 121 are not available, then the passenger may select the button 410-3. Moreover, in some embodiments, the button 410-2 may be automatically omitted if accessing an ID of the localarea access point 121 is not available or if data transmissions by the wirelesselectronic device 101 via the localarea access point 121 are not available. - It will be understood that the buttons 410-1, 410-2, and 410-3 may be selected via user inputs by the passenger, such as via inputs to a touchscreen of the wireless
electronic device 101. In some embodiments, other user inputs, such as inputs via a stylus, cursor, or keypad, may be used. - Additionally or alternatively, a passenger of a flight may order/purchase items via a web page or resident application that is accessed by the wireless
electronic device 101. Accordingly, theGUI 410 may display user-selectable options for purchasing items, such as duty-free items. In some cases, the passenger may attempt to unlawfully purchase multiple (i.e., two or more) items via the web page or resident application. In particular, the passenger may attempt to use the web page or resident application (e.g., by using the web page or resident application repeatedly for purchases) to circumvent rules/systems and take items in excess of an amount allowed by a particular jurisdiction's customs. - This may be a problem for certain jurisdictions. This problem can be solved, however, in cooperation with duty-free shops (or bonded warehouses for duty-free export). For example, the web page or resident application can access a database of an airport/airline duty-free shop to verify that the passenger exporting (or entity exporting on behalf of the passenger) has not already purchased a maximum amount (e.g., has not exceeded personal-use quantities of duty-free merchandise) allowed by a certain (i.e., particular) jurisdiction. As an example, the operations of
Blocks FIGS. 2A-2C may include accessing, via the web page or resident application, the database to verify whether the passenger has purchased the maximum amount. If the maximum amount has already been purchased, then the web page or resident application may block subsequent purchases for that passenger. Accordingly, the web page or resident application can provide safeguards against excess duty-free purchases. -
FIG. 5 illustrates a block diagram of anexample processor 351 andmemory 353 that may be used in accordance with various embodiments of the present inventive concepts. Theprocessor 351 communicates with thememory 353 via an address/data bus 590. Theprocessor 351 may be, for example, a commercially available or custom microprocessor. Moreover, theprocessor 351 may include multiple processors. Thememory 353 is representative of the overall hierarchy of memory devices containing the software and data used to implement various functions as described herein. Thememory 353 may include, but is not limited to, the following types of devices: cache, ROM, PROM, EPROM, EEPROM, flash, Static RAM (SRAM), and Dynamic RAM (DRAM). - Referring to
FIG. 5 , thememory 353 may hold various categories of software and data, such as anoperating system 583. Theprocessor 351 andmemory 353 may be part of a wirelesselectronic device 101 or aserver 135. Accordingly, theoperating system 583 can control operations of the wirelesselectronic device 101 or theserver 135. In particular, theoperating system 583 may manage the resources of the wirelesselectronic device 101 or theserver 135 and may coordinate execution of various programs (e.g., a resident application described herein) by theprocessor 351. - Embodiments described herein can greatly enhance (e.g., by simplifying) the duty-free shopping experience. Moreover, a passenger does not have to carry duty-free shopping items on board a flight. Rather, such items can be delivered directly to an address (e.g., a residential or business address) of the passenger's choosing.
- Although the use of a boarding pass and a local area access point identification (e.g., identification of on board Wi-Fi), and respective time stamps by a
smartphone 101S, provides one example of the present inventive concepts, the present inventive concepts are not limited thereto. Rather, other forms of identifying the passenger can be used instead of the boarding pass. For example, biometrics such as fingerprint recognition and/or facial recognition can be used in the place of the boarding pass. As another example, assmartphones 101S may have a built-inbarometer 357, such abarometer 357 can be used to measure altitude/change in altitude and thus can provide another way to verify whether a person is airborne. - Nor are the present inventive concepts limited to duty-free shopping. Rather, some embodiments may be used to enhance (e.g., simplify) security protocols. For example, airlines may wish to verify that the respective owners of checked bags on an
aircraft 120A are on board. If a passenger is not present on theaircraft 120A, then any bag checked by the passenger may be removed or blocked from loading. Accordingly, the present inventive concepts herein may be applied to airline security protocols to improve efficiency and/or effectiveness. - The following are non-limiting examples/use-cases of the present inventive concepts:
- 1. A passenger of a transportation vehicle 120 (e.g., an
aircraft 120A) can qualify for duty-free shopping without presenting a boarding pass at an airport for purchased duty-free merchandise. This can be accomplished by verifying, via the two-factor authentication described herein, that the passenger was on board a particular flight from one jurisdiction to another jurisdiction. - 2. A passenger of an
aircraft 120A can obtain a refund for the passenger's payment of a value-added tax without filing, at an airport, a form to obtain the refund. This can be accomplished by verifying, via the two-factor authentication described herein, that the passenger was on board a particular flight from one jurisdiction to another jurisdiction. - 3. An airline, and/or a security agency, can verify that an owner of one or more checked bags (i.e., checked luggage) is on board the
aircraft 120A for which the bag(s) have been checked. This can be accomplished by verifying, via the two-factor authentication described herein, whether the passenger is on board theaircraft 120A. - 4. A passenger of an
aircraft 120A can initiate, without completing, a purchase via asmartphone 101S at a point-of-sale in a duty-free shop at an airport. The purchase can subsequently be completed at a different physical location based on verification of the passenger's identity and/or location, via the two-factor authentication described herein. - 5. A jurisdiction can safeguard against excess duty-free purchases by verifying, when a passenger attempts to purchase duty-free merchandise remotely via a web page or resident application of a wireless
electronic device 101, whether the passenger has already purchased a maximum amount of duty-free merchandise for that jurisdiction. - 6. The arrival of a passenger at a destination (e.g., an arrival airport) can be confirmed. For example, when a minor is escorted aboard an
aircraft 120A, the present inventive concepts can be used to confirm that the minor has arrived at the destination after disembarking theaircraft 120A. As another example, the present inventive concepts can be used for immigration purposes to confirm that a person has exited one country and/or entered another country. In instances where the passenger has visitor status in a country, or otherwise should only have a limited-duration stay in the country, a resident application of a wirelesselectronic device 101 of the passenger can check/verify after a predetermined duration whether the passenger has exited the country. In some examples, authorities can require that the passenger download the resident application and transmit confirmation of an exit of the jurisdiction. - Moreover, although some examples herein discuss the context of an
aircraft 120A, the present inventive concepts are not limited thereto. Rather, some embodiments may provide verification of the presence of a passenger on board a car, train, bus, or other land-basedtransportation vehicle 120. Additionally or alternatively, although some examples herein discuss asmartphone 101S, a laptop computer, a tablet computer, or any other portable, wireless electronic device with communications capability may be used. - Furthermore, in some embodiments, the verification/use of the onboard presence of a passenger may be omitted from one or more operations described herein. For example, the arrival of a passenger at a destination, and/or the authorization/verification of a duty-free purchase at a remote location different from the location where the purchase was initiated, may be confirmed/completed in a method that omits the identification/confirmation of the onboard presence of the passenger.
- Additionally or alternatively, the passenger may, in some embodiments, provide biometric data by opening/unlocking the wireless
electronic device 101, such as by a fingerprint scan or face (and/or retina) scan of the passenger that opens/unlocks the wirelesselectronic device 101. Accordingly, biometric data that is used/transmitted according to the present inventive concepts to confirm the location/identity of the passenger may be data that is generated/provided when the passenger opens/unlocks the wirelesselectronic device 101. - A variety of different embodiments of the present inventive concepts have been disclosed herein, in connection with the above description and the drawings. It will be understood that it would be unduly repetitious and obfuscating to literally describe and illustrate every combination and subcombination of these embodiments. Accordingly, the present specification, including the drawings, shall be construed to constitute a complete written description of all combinations and subcombinations of the embodiments of the present inventive concepts described herein, and of the manner and process of making and using them, and shall support claims to any such combination or subcombination.
- It will be understood that when an element is referred to as being “connected,” “coupled,” or “responsive” to another element, it can be directly connected, coupled, or responsive to the other element or intervening elements may be present. Furthermore, “connected,” “coupled,” or “responsive” as used herein may include wirelessly connected, coupled, or responsive.
- The terminology used herein is for the purpose of describing particular embodiments of the present inventive concepts only and is not intended to be limiting of the present inventive concepts. As used herein, the singular forms “a,” “an,” and “the” are intended to include the plural forms as well, unless expressly stated otherwise. It will be further understood that the terms “includes,” “comprises,” “including,” and/or “comprising,” when used in this specification, specify the presence of stated features, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, elements, components, and/or groups thereof. As used herein, the term “and/or” includes any and all combinations of one or more of the associated listed items. The symbol “/” is also used as a shorthand notation for “and/or.”
- Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present inventive concepts belong. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and the present disclosure, and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.
- It will be understood that although the terms “first” and “second” may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another element. Thus, a first element could be termed a second element, and similarly, a second element may be termed a first element without departing from the teachings of the present inventive concepts.
- A variety of different embodiments of the present inventive concepts have been disclosed herein, in connection with the above description and the drawings. It will be understood that it would be unduly repetitious and obfuscating to literally describe and illustrate every combination and subcombination of these embodiments. Accordingly, the present specification, including the drawings, shall be construed to constitute a complete written description of all combinations and subcombinations of the embodiments of the present inventive concepts described herein, and of the manner and process of making and using them, and shall support claims to any such combination or subcombination.
- In the drawings and specification, there have been disclosed example embodiments of the present inventive concepts. Although specific terms are employed, they are used in a generic and descriptive sense only and not for purposes of limitation, the scope of the present inventive concepts being defined by the following claims.
Claims (22)
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